Tetrathiafulvalene (TTF); redox-activity; macrocycles; TTF-Phthalocyanine; supramolecular complexes; bio-materials

COST-Action D31 - Organising Non-Covalent Chemical Systems with Selected Functions

Tetrathiafulvalene (TTF), a redox-active molecular unit, is taken as a building block to realize complex macrocyclic systems. Specifically, TTF-annulated macrocycles (N3S2), TTF-annulated-Phthalocyanines and TTF-based biomaterials (with Peptide strands) will be synthesized and investigated. The properties are correlated with the crystalline solid state as well as with the structures within the nano-regime.

Full name of research-institution/enterprise: Universität Bern Departement für Chemie und Biochemie

AT, BE, CH, CZ, DE, DK, ES, FI, FR, GR, HR, HU, IL, IT, LT, NL, NO, PL, PT, SE, SI, UK

Within the about 3 years of the project duration, a total of 16 publications (5 in 2006, 5 in 2007, 5 in 2008 and 1 in 2009) where this COST project got essentially involved, can be listed. In full accordance with the outline of the research project, a broad range of redox-active supramolecular systems, mostly based on tetrathiafulvalene (TTF) donors, has been synthesized and characterized. Combined with appropriate electron accepting groups, such novel electron donor-acceptor compounds are good candidates for being probed in the field of molecular electronics. Importantly, some of these fused molecular systems reach a low HOMO-LUMO gap (means the energy difference of the frontier molecular orbitals) of about 0.5 eV, only. This property facilitates especially the electron/hole mobility through such materials. In other cases, based on the combined electron donor-acceptor characteristics, long-lived light-induced charge-separated states within the molecules can easily be populated and we reached life-times for them of the order of a few microseconds; a result which is outstanding in view of the molecular architecture which is based on a mononuclear coordination compound, only. To sum up, a 'new' technique, namely to fuse/annulate electron donors and acceptors in rigid, extended pi-electron conjugated molecular systems with defined geometries and symmetries has successfully been applied - their characteristics will extensively be probed for the field of molecular electronics.

Swiss Database: COST-DB of the State Secretariat for Education and Research Hallwylstrasse 4 CH-3003 Berne, Switzerland Tel. +41 31 322 74 82 Swiss Project-Number: C05.0064